Esempio n. 1
0
 public void addConstraint(SqlQuery sqlQuery, RolapCube baseCube, AggStar aggStar) {
   // Use aggregate table to generate filter condition
   RolapNativeSql sql =
       new RolapNativeSql(sqlQuery, aggStar, getEvaluator(), args[0].getLevel());
   String filterSql = sql.generateFilterCondition(filterExpr);
   if (filterSql != null) {
     sqlQuery.addHaving(filterSql);
   }
   if (getEvaluator().isNonEmpty() || isJoinRequired()) {
     // only apply context constraint if non empty, or
     // if a join is required to fulfill the filter condition
     super.addConstraint(sqlQuery, baseCube, aggStar);
   }
 }
Esempio n. 2
0
  NativeEvaluator createEvaluator(RolapEvaluator evaluator, FunDef fun, Exp[] args) {
    if (!isEnabled()) {
      return null;
    }
    if (!FilterConstraint.isValidContext(evaluator, restrictMemberTypes())) {
      return null;
    }
    // is this "Filter(<set>, <numeric expr>)"
    String funName = fun.getName();
    if (!"Filter".equalsIgnoreCase(funName)) {
      return null;
    }

    if (args.length != 2) {
      return null;
    }

    // extract the set expression
    List<CrossJoinArg[]> allArgs = crossJoinArgFactory().checkCrossJoinArg(evaluator, args[0]);

    // checkCrossJoinArg returns a list of CrossJoinArg arrays.  The first
    // array is the CrossJoin dimensions.  The second array, if any,
    // contains additional constraints on the dimensions. If either the
    // list or the first array is null, then native cross join is not
    // feasible.
    if (allArgs == null || allArgs.isEmpty() || allArgs.get(0) == null) {
      return null;
    }

    CrossJoinArg[] cjArgs = allArgs.get(0);
    if (isPreferInterpreter(cjArgs, false)) {
      return null;
    }

    // extract "order by" expression
    SchemaReader schemaReader = evaluator.getSchemaReader();
    DataSource ds = schemaReader.getDataSource();

    // generate the WHERE condition
    // Need to generate where condition here to determine whether
    // or not the filter condition can be created. The filter
    // condition could change to use an aggregate table later in evaluation
    SqlQuery sqlQuery = SqlQuery.newQuery(ds, "NativeFilter");
    RolapNativeSql sql = new RolapNativeSql(sqlQuery, null, evaluator, cjArgs[0].getLevel());
    final Exp filterExpr = args[1];
    String filterExprStr = sql.generateFilterCondition(filterExpr);
    if (filterExprStr == null) {
      return null;
    }

    // Check to see if evaluator contains a calculated member that can't be
    // expanded.  This is necessary due to the SqlConstraintsUtils.
    // addContextConstraint()
    // method which gets called when generating the native SQL.
    if (SqlConstraintUtils.containsCalculatedMember(evaluator.getNonAllMembers(), true)) {
      return null;
    }

    LOGGER.debug("using native filter");

    final int savepoint = evaluator.savepoint();
    try {
      overrideContext(evaluator, cjArgs, sql.getStoredMeasure());
      // Now construct the TupleConstraint that contains both the CJ
      // dimensions and the additional filter on them.
      CrossJoinArg[] combinedArgs = cjArgs;
      if (allArgs.size() == 2) {
        CrossJoinArg[] predicateArgs = allArgs.get(1);
        if (predicateArgs != null) {
          // Combined the CJ and the additional predicate args.
          combinedArgs = Util.appendArrays(cjArgs, predicateArgs);
        }
      }

      TupleConstraint constraint = new FilterConstraint(combinedArgs, evaluator, filterExpr);
      return new SetEvaluator(cjArgs, schemaReader, constraint);
    } finally {
      evaluator.restore(savepoint);
    }
  }